JUNE 16-21, 2013 • TAMPA, FLORIDA
159
Area 1 - Orals
1:30 - 3:00
PM
MR 20-21
Fundamentals and New Concepts: Physics and
Engineering of Quantum Well and Superlattice
Enhanced Solar Cells
Chair: Jessica Adams, Andenet Alemu, Christiana
Honsberg
1:30
(480)
Incorporation of InGaAs Quantum Wells
in an InP Lattice-Matched 1 eV InAlGaAs
n-i-p
Solar Cell.
Christopher G. Bailey
1
,
David V. Forbes
2
,
Matthew P. Lumb
3
,
Michael K. Yakes
1
,
Maria
Gonzalez
4
,
Seth M. Hubbard
2
,
Raymond Hoheisel
3
,
Joseph G. Tischler
1
,
Igor Vurgaftman
1
,
Jerry R.
Meyer
1
,
Robert J. Walters
1
.
1
U.S. Naval Research
Laboratory, Washington, DC, USA,
2
Rochester
Institute of Technology, Rochester, NY, USA,
3
George
Washington University, Washington, DC, USA,
4
Sotera
Defense Solutions, Annapolis Junction, MD, USA
1:45
Best Student Presentation Award Finalist
(481)
Carrier Escape Time and Temperature-
Dependent Carrier Collection Efficiency of
Tunneling-Enhanced Multiple Quantum Well
Solar Cells.
Kasidit Toprasertpong
1
,
Hiromasa
Fujii
1
,
Yunpeng Wang
2
,
Kentaroh Watanabe
2
,
Masakazu Sugiyama
1
,
Yoshiaki Nakano
2
1
School of Engineering, the University of Tokyo,
Tokyo, Japan,
2
Research Center for Advanced
Science and Technology, Tokyo, Japan
2:00
Best Student Presentation Award Finalist
(482)
An Evaluation of Fabrication Methods for
Doping Superlattice Devices.
Michael A. Slocum,
David V. Forbes, Mihir H. Bohra, Seth M. Hubbard
Rochester Institute of Technology, Rochester, NY, USA
2:15
(483)
Evaluation Of Asymmetric Tunneling-
Assisted Structure For InGaAs/GaAsP MQWs
solar cell.
ShaoJun Ma
1
,
YunPeng Wang
2
,
Hassanet
Sodabanlu
2
,
Kentaroh Watanabe
2
,
Masakazu
Sugiyama
1
,
Yoshiaki Nakano
1,2
1
Department of Electrical Engineering and Information
Systems, School of Engineering, the University of
Tokyo, Tokyo, Japan,
2
Research Center for Advanced
Science and Technology, the University of Tokyo,
Tokyo, Japan
2:30
(484)
Quantum Well Interface Improvement for use
in Single and Multijunction Solar Cells
Joshua P Samberg
1
,
Geoffrey K Bradshaw
1
,
C.
Zachary Carlin
1
,
Peter C Colter
1
,
Ken M Edmondson
2
,
William D Hong
2
,
Chris M Fetzer
2
,
Nasser Karam
2
,
Salah M Bedair
1
1
North Carolina State University, Raleigh, NC, USA,
2
Spectrolab Inc., Sylmar, CA, USA
2:45
(485)
Thin Film InGaAs/GaAsP MQWs Solar
Cell with Backside Nano-Imprinted Pattern for
Light Trapping.
Kentaroh Watanabe
1
,
Boram Kim
2
,
Tomoyuki Inoue
2
,
Hassanet Sodabanlu
1
,
Masanao
Goto
3
,
Shinya Hayashi
3
,
Masakazu Sugiyama
2
,
Kenjiro
Miyano
1,2
,
Yoshiaki Nakano
1,2
.
1
Research Center for
Advanced Science and Technology, the University
of Tokyo, Tokyo, Japan,
2
Department of Electrical
Engineering and Information Systems, School of
Engineering, the University of Tokyo, Tokyo, Japan,
3
Central Technical Research Laboratory, JX Nippon Oil
&
Energy Corporation, Yokohama, Japan
TECHNICAL PROGRAM
